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Control and management of slug and snail vectors, with special reference to species in Hawaii
Robert G. HollingsworthUSDA-ARS Research Entomologist
US Pacific Basin Agricultural Research Center Hilo, Hawaii
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Outline
Chemical control options Cultural control and trapping Habitat management considerations Semi-slugs in Hawaii as an example of a
high-risk, difficult-to-control species
Why should you care? Doctors $ Big Gardens Educators Like to inform
everybody is interested in how to kill slugs Molecular types like molecules
molecules are found in baits that kill slugs Northern Mariana Islands Rota
Terribly Infested with Cuban Slugs
Why should you care? Doctors $ Big Gardens Educators Like to inform
everybody is interested in how to kill slugs Molecular types like molecules
molecules are found in baits that kill slugs Northern Mariana Islands Rota
Terribly Infested with Cuban Slugs
One size fits all In the humid tropics, species of slugs and
snails in the landscape present a rat lungworm risk for both home gardenersand commercial vegetable producers.
Even ordinary homeowners and their pets are potentially in harm’s way.
Recommended control measures are similar in each of these cases and rely mainly on the use of poison baits, trapping, and habitat manipulation.
Gastropods are generally nocturnal feeders, and much of the damage to crops attributed to insects may be actually caused by snails and slugs feeding at night when they are not observed.
Chemical Control: Molluscicides By far, the most commonly used active
ingredients for control of slugs and snails are metaldehyde, methiocarb and iron phosphate.
The most frequent formulation method used is incorporation into food bait pellets
Common bait products, left to right: Sluggo (food bait containing 1% iron phosphate); Durham 7.5% metaldehyde granules; Metarex (metaldehyde food bait)Deadline (metaldehyde food bait). Note: blue color reduces attraction to birds.
Metaldehyde
In pure form, is a white, crystalline solid. In some countries, tablets of the pure material are used
as fuel for campstoves.
At least two modes of action:
(1) poisoning of mucus glands, usually associated with the consumption of poison baits; and
(2) irritation to the skin upon contact, causing excess mucus production, leading to death by dehydration.
Metaldehyde
In pure form, is a white, crystalline solid. In some countries, tablets of the pure material are used
as fuel for campstoves.
At least two modes of action:
(1) poisoning of mucus glands, usually associated with the consumption of poison baits; and
(2) irritation to the skin upon contact, causing excess mucus production, leading to death by dehydration.
Metaldehyde product formulations
Food baits (attract and kill) Granulars (rely on contact poisoning) Liquids (e.g., for drenching potted plants)
Limitations
Do not apply metaldehyde baits to food crops after the edible portion has formed in the crop.
Metaldehyde is toxic to fish, and should not be used near bodies of water.
Safety of metaldehyde Molluscicides containing metaldehyde are
relatively safe to the applicator if not eaten or inhaled.
Metaldehyde quickly breaks within a period of several days to a week.
Ducks, geese, chickens and dogs are the animals most likely to find the poison bait attractive. The poison damages the liver.
If baits must be used in areas where domesticated animals are present, place the baits under boards or rocks in the area near the crop to be protected.
Methiocarb
Methiocarb is a carbamate chemical which is also used as an insecticide.
It is a potent nerve poison. Most formulations of methiocarb are classified as
“restricted use pesticides.” Like metaldehyde, methiocarb is frequently as
an ingredient in food bait pellets (especially in Europe).
Methiocarb pellets may work better under cool, moist conditions.
1% Iron phosphate Occurs naturally in the soil First used in Europe,
registered in the United States since 1997
Ingestion causes cessation of feeding eventual death
Main advantage is greater safety to domesticated animals
Disadvantages are cost and (sometimes) lower efficacy
Considerations for use
Food baits are best applied in the late afternoon Under humid conditions, food baits will only be effective
for 3-4 days before mold grows over them. Several bait applications about a week apart may be
necessary to control slug and snail pests in a particular area.
Rain or heavy dew may cause pellets to swell and break apart.
Some formulations are more resistant to water than others, and the palatability of different food baits varies according to the slug or snail species in question.
Which type of bait product do I use?
Metaldehyde bait products are usually most economical
Under cool, moist conditions, methiocarbbaits (if available) may be more effective
Iron phosphate can be tried around homes and in ecologically sensitive areas
“Natural” Slug Control: Internet Methods
Water less often Copper bands around plants Attract with fruits or shelter
material then kill slugs Diatomaceous earth Seaweed borders around
plants Beer traps Hand picking Salt or ammonia applied
directly to slugs
Cultural ControlIf thinking of slugs and snails as “enemies “
Enemy StrengthsTrue omnivoresLarge animals; difficult to kill with contact poisonsCan live for a long time without feedingCan hide in potting medium or soil
Enemy WeaknessesNeed lots of waterSome species can be controlled by hand-picking (larger
species)
Most Useful Cultural control and Trapping Strategies
Limit the number of moist hiding and breeding places (e.g. remove concrete blocks or wood in contact with ground)
Employ moist hiding places or vegetable matter baits in “attract and kill” strategy
Make the environment drier or less suitable (e.g. do not overwater plants, modify drainage, reduce shade or favorite food species)
The giant African snail (GAS) – Achatina fulica – is perhaps the best known invasive snail species. Introduced into the Pacific Basin just prior to WWII, it has been spread throughout the islands, both intentionally and as an unintended hitchhiker.
On some islands, it has already declined to the point of being a minor pest. On others, such as Kosrae (FSM), it has only recently been introduced and it may soon have serious consequences for the island’s agriculture.
GAS has been an important vector of disease in the Pacific Basin.
Slide credit: Dr. David Robinson
Others are newly introduced and represent major threats to garden crops and subsistence agriculture and to human and animal health. Of greatest concern is the Cuban slug – Veronicella cubensis.
The Cuban slug is so variable in external appearance that some scientists have incorrectly classified different morphological types into different species, based mainly on differences in color and patterns.
Photo: David Robinson
The Asian semi-slug –Parmarion cf. martensi –is established in the Hawaiian Islands, specifically on O‘ahu and Hawai‘i (“Big Island”).
It feeds on papaya fruit, Hibiscus, and lettuce and dead plant matter.
This semi-slug is believed to be an important vector of rat-lungworm disease on the Big Island.
New Pest in East Hawaii Island
Was called out to investigate new slug species in Dec ‘04 following illnesses
Slug density was very high
Slugs were heavily infected with Angiostrongylus cantonensis
Figure 1. Survey locations for P. martensi in Hawaii Island (circular markers). White circles indicate sites where P. martensi was searched for, but not found. Inset shows Puna district.
Distribution of Parmarion cf. martensi(Pulmonata: Helicarionidae), a New Semi-Slug Pest on Hawai‘i Island, and Its Potential as a Vector for Human Angiostrongyliasis
Robert G. Hollingsworth,Rachel Kaneta,James J. Sullivan,Henry S. Bishop,Yvonne Qvarnstrom,Alexandre J. da Silva,and David G. Robinson
Pacific Science (2007), vol. 61, no. 4:457–467
Types of habitat where P. martensi was observed by survey participants (day and night observations).
LocationNo. of reports
On green plants (lettuce, fennel, sweet potato, banana, passionfruit, lemongrass, Heliconia) 10On fallen fruit (avocado, guava, citrus, papaya, mango) 9On/under plastic or plastic-like materials, including black plastic sheeting, tarps, drain pipes or plant pots 8In compost (especially covered compost) or inside trash cans 6In food preparation and sink areas (outdoor sinks, on dishes, grills, on toothbrush) 5In pet food bowls or eating spilled pet food 5On deck or stairs 5On concrete, tile or asphalt 5On walls of home 4On palm fronds or trunks or under coconut shells 4On catchments tank (on outside, under black saran cover at top) 3On ripe papaya fruits (on tree) 2In plant debris other than palms 2
Percent infectiona by A. cantonensis in slugs collected from 5 sites in Hawaii Island.
Slug species Size % infecteda N
V. cubensis small 0% 9medium 0% 2
large 34.6% 26all sizes 24.3% 37
P. martensi neonate 100% 1small 25% 4medium 76.9% 13large 86.4% 22all sizes 77.5% 40
aInfection determined by PCR and confirmed by sequencing of PCR amplicons.
Observations related to disease risk potential
In Okinawa, Japanese scientists concluded that both P. martensi and Platydemus manokwariwere important vectors of A. cantonensis
They noted that P. martensi has low-density muscle tissue, and hypothesized that this was related to high worm burdens.
Platydemus manokwari (slug and snail predator, paratenichost)
Life History Observations P.martensi is attracted to and breeds in dead
palm fronds Populations peak in late winter/early spring,
when adults lay egg clusters then die in immediate vicinity
Does the life history of P. martensi lead to higher levels of A. cantonensis in neonate P. martensi and flatworms?